Add to ORKGAn aerobrake design that has matured over several years of development accounting for all of the important flow phenomenology which are characteristic of aerobraking vehicles is proposed as the mission baseline. Flight regimes and aerothermal environments for both Mars and Earth entry are calculated using advanced methods to account for real-gas, thermochemical, relaxation effects. The results are correlated with thermal-protection and structural requirements and mission performance capability. The importance of nonequilibrium radiative heating for Earth aerocapture is demonstrated. It is suggested that two aerobrakes of different sizes will produce optimal performance for the three phases of the mission (i.e., one aerobrake for Mars aeroca...
The recent discovery of possible fossilized microbes in a Martian meteorite sample and the spectacul...
When entering orbit about a planet or moon with an appreciable atmosphere, instead of using only the...
Aerobraking has been proposed as a critical technology for manned missions to Mars. The variety of m...
For a Mars Expedition, aerobrakes can play a vital role in several major mission events, including a...
Aerobraking is one of the largest contributors to making both lunar and Mars missions affordable. Th...
This chapter provides an overview of the aeroassist technologies and performances for Mars missions....
Vehicle design requirements of a reusable system for manned Mars missions which employ aerocapturing...
Design concepts are described for landing large spacecraft masses on the Mars surface in support of ...
Conventional interplanetary spacecraft use propulsive systems to decelerate into orbit. Aerocapture ...
Aerobraking has become a proven approach for orbital missions at Mars. A launch of a 1000 kg class s...
A discussion is presented of the basic principles of aerobraking. Typical results are given for the ...
The proposed manned Mars mission will need to be as weight efficient as possible. A way of lowering ...
The aerothermal environment is examined for two vehicle forebodies near the peak heating points of l...
Because of the severe quarantine constraints that must be imposed on any returned extraterrestrial s...
Because of the severe quarantine constraints that must be imposed on any returned extraterrestrial s...
The recent discovery of possible fossilized microbes in a Martian meteorite sample and the spectacul...
When entering orbit about a planet or moon with an appreciable atmosphere, instead of using only the...
Aerobraking has been proposed as a critical technology for manned missions to Mars. The variety of m...
For a Mars Expedition, aerobrakes can play a vital role in several major mission events, including a...
Aerobraking is one of the largest contributors to making both lunar and Mars missions affordable. Th...
This chapter provides an overview of the aeroassist technologies and performances for Mars missions....
Vehicle design requirements of a reusable system for manned Mars missions which employ aerocapturing...
Design concepts are described for landing large spacecraft masses on the Mars surface in support of ...
Conventional interplanetary spacecraft use propulsive systems to decelerate into orbit. Aerocapture ...
Aerobraking has become a proven approach for orbital missions at Mars. A launch of a 1000 kg class s...
A discussion is presented of the basic principles of aerobraking. Typical results are given for the ...
The proposed manned Mars mission will need to be as weight efficient as possible. A way of lowering ...
The aerothermal environment is examined for two vehicle forebodies near the peak heating points of l...
Because of the severe quarantine constraints that must be imposed on any returned extraterrestrial s...
Because of the severe quarantine constraints that must be imposed on any returned extraterrestrial s...
The recent discovery of possible fossilized microbes in a Martian meteorite sample and the spectacul...
When entering orbit about a planet or moon with an appreciable atmosphere, instead of using only the...
Aerobraking has been proposed as a critical technology for manned missions to Mars. The variety of m...